Numerical Investigation of Unsteady Flow in Draft Tube with Ribs

2022 IEEE 3rd KhPI Week on Advanced Technology (KhPIWeek) Pub Date : 2022-10-03 DOI:10.1109/KhPIWeek57572.2022.9916461

Yu. G. Bykov, O. Khoryev, P. Korotaiev, V. Dedkov, Yevgen Agibalov

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Abstract

Unsteady flow in the draft tube of hydraulic machines is a dangerous phenomenon that can lead to destruction of the structure. The most serious is precession of vortex rope, which usually occurs at partial load modes, and significantly limits the operating range. In order to determine the level of such pulsations and the influence of presence of ribs inside the draft tube, a numerical simulation of unsteady flow in the model of the draft tube of the Francis pump-turbine of the Dniester HPP in turbine mode was carried out. Selection of the most suitable turbulence model was made based on a comparison of calculation data and data obtained as a result of experimental studies. The comparison was made both for values of total pulsation amplitude on surface of the tube diffuser, and for the frequency-amplitude characteristics, which show a satisfactory correspondence in frequency, but a significant difference in amplitude. Using flow data in experimentally determining modes, a simulation of flow in the draft tube with ribs installed in the vertical diffuser and designed to reduce the level of pressure pulsations at partial loads, was carried out. As a result of the analysis of received data, the optimal size of additional elements was determined.

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带肋尾水管非定常流场数值研究

液压机尾水管内的非定常流动是一种危险现象，可导致结构的破坏。最严重的是涡流绳的进动，通常发生在部分负荷模式下，严重限制了工作范围。为了确定这种脉动的程度以及尾水管内肋的存在对尾水管的影响，对德涅斯特水电站法兰式水泵水轮机尾水管模型进行了水轮机模式下的非定常流场数值模拟。通过对计算数据和实验数据的比较，选择了最合适的湍流模型。比较了管状扩压器表面脉动的总幅值和频率-幅值特性，结果表明频率上有较好的对应关系，但幅值上有显著差异。利用实验确定模式下的流动数据，模拟了在垂直扩压器中安装肋的尾水管内的流动，并设计了肋来降低部分负载下的压力脉动水平。通过对接收数据的分析，确定了最优的附加元件尺寸。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 IEEE 3rd KhPI Week on Advanced Technology (KhPIWeek)

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